Aspartame (C14H18N2O5) contains two nitrogen atoms per molecule. To find the number of nitrogen atoms in 1.2 g of aspartame, we first calculate the molar mass of aspartame, which is approximately 294.3 g/mol. Then, we determine the number of moles in 1.2 g of aspartame (1.2 g / 294.3 g/mol ≈ 0.00407 moles). Since each mole of aspartame contains 2 moles of nitrogen atoms, this results in approximately 0.00814 moles of nitrogen atoms, or about 4.9 x 10^21 nitrogen atoms.
The formula given is wrong it should be NH3SO4. Total number of Nitrogen atoms will be 1. Hydrogen=3 Sulphur=1 Oxygen=4
There are a total of 10 atoms in a molecule of ammonia (NH3), composed of 1 nitrogen atom and 3 hydrogen atoms.
In 4HNO3, there are 4 hydrogen (H) atoms, 4 nitrogen (N) atoms, and 12 oxygen (O) atoms.
4 hydrogen atoms 4 nitrogen atoms 12 oxygen atoms
3 x 12 = 36 moles of Nitrogen atoms N or 18 moles of Nitrogen molecules N2
(NH4)3PO43 nitrogen atoms12 hydrogen atoms1 phosphorous atom4 oxygen atoms=======================add20 total atoms in ammonium phosphate---------------------------------------------------
There are 9 nitrogen atoms, 3 phosphorus atoms, 12 hydrogen atoms, and 4 oxygen atoms in (NH4)3PO4.
atoms in 12 g of c-12
atoms in 12 g of c-12
One mole of KNO3 contains 4 potassium atoms, 4 nitrogen atoms, and 12 oxygen atoms, giving a total of 20 atoms.
There are a total of 6 atoms in 2Mg(NO3)2. This includes 2 magnesium (Mg) atoms, 4 nitrogen (N) atoms, and 12 oxygen (O) atoms.
To calculate the atomicity of ammonium phosphate, first determine the formula of ammonium phosphate, NH4)3PO4. The atomicity is then determined by adding the total number of atoms in the formula, which is 12 (4 nitrogen atoms from ammonium and 8 atoms from phosphate). So, the atomicity of ammonium phosphate is 12.